Rear vehicle-body structure

ABSTRACT

A recessed portion is formed at a frame member provided at a rear portion of a vehicle body and having a closed cross section extending in a vehicle longitudinal direction, wherein the recessed portion is configured such that a lower face of the frame member is recessed upwardly and a damper is inserted into and fixed to the recessed portion. Closed cross sections are formed inside the frame member at a position corresponding to the recessed portion. These closed cross sections are configured to branch off from the closed cross section outwardly and inwardly relative to the damper. A reinforcing member is fixed to the frame member and a wheel house inner at the position corresponding to the recessed portion such that a space is formed at a corner portion of these.

BACKGROUND OF THE INVENTION

The present invention relates to a rear vehicle-body structure which comprises a damper support portion to support a rear suspension damper and a frame member extending in a vehicle longitudinal direction, such as a rear side frame, wherein the frame member is configured to serve as the damper support portion.

As exemplified by Japanese Patent Laid-Open Publication No. 2003-137140, a rear vehicle-body structure in which a damper support portion (a suspension attachment portion (33)) to support a rear suspension damper (hereafter, referred to as a “damper”) is provided at a position located on an outward side, in a vehicle width direction, of a frame member (a rear side frame (7)) and on an inward side, in the vehicle width direction, of a wheel house inner (19) is known.

Herein, differently from the above-described structure of the patent document where the frame member, the damper support portion, and the wheel house inner are arranged along the vehicle width direction, it may be considered that a recessed portion 150 is formed at a frame member 160, wherein the recessed portion 150 is configured such that a lower face of the frame member 160 is recessed upwardly, and a damper (not illustrated) is inserted, from below, into and supported at a damper insertion hole 151 which is formed at a recessed bottom of the recessed portion 150, similarly to a rear vehicle-body structure 100 illustrated in FIG. 13.

In this case, however, outward-side and inward-side closed cross sections 160 sa, 160 sb are formed at a longitudinal position of the frame member 160 which corresponds to the recessed portion 150, wherein the closed cross sections 160 sa, 160 sb are configured to branch off from a closed cross section of the frame member 460 outwardly and inwardly, in the vehicle width direction, relative to the damper as shown in FIG. 14, a sectional view taken along line D-D of FIG. 13. Therefore, there is a concern that the above-described branch-shaped closed cross sections 160 sa, 160 sb may have a so-called open move such that a distance, in the vehicle width direction, between these 160 sa, 160 sb improperly increases when receiving a load from the damper.

SUMMARY OF THE INVENTION

The present invention has been devised in view of the above-described concern, and an object of the present invention is to provide a rear vehicle-body structure which can properly suppress the above-described open move, in the vehicle width direction, of the portion of the frame member where the recessed portion is formed (a branch portion of the closed cross section of the frame member) which may be caused by a vertical move of the damper.

The present invention is a rear vehicle-body structure, comprising a frame member provided at a rear portion of a vehicle body and having a closed cross section extending in a vehicle longitudinal direction, a rear wheel house provided on an outward side, in a vehicle width direction, of the frame member, a recessed portion formed at the frame member, wherein the recessed portion is configured such that a central part, in the vehicle width direction, of a lower face of the frame member is recessed upwardly, and a damper of a rear suspension is inserted into and fixed to the recessed portion, inward-side and outward-side closed cross sections formed inside the frame member at a longitudinal position corresponding to the recessed portion, wherein the inward-side and outward-side closed cross sections are configured to branch off from the closed cross section of the frame member inwardly and outwardly, in the vehicle width direction, relative to the damper, and a reinforcing member fixed to the frame member and the rear wheel house at a position corresponding to the recessed portion of the frame member such that a space is formed at a corner portion of the frame member and the rear wheel house.

According to the present invention, while the portion of the frame member corresponding to the recessed portion in the vehicle longitudinal direction (the branch portion of the closed cross section of the frame member) is configured to have the branch-shaped inward-side and outward-side closed cross sections, it can be properly suppressed by the reinforcing member that the portion of the frame member corresponding to the recessed portion (the branch portion) has the so-called open move such that the distance, in the vehicle width direction, between the branch-shaped inward-side and outward-side closed cross sections improperly increases according to the vertical move of the damper.

In an embodiment of the present invention, the reinforcing member is provided with a rib having a face which extends in the vehicle width direction and a vertical direction.

According to this embodiment, the above-described suppression effect of the open move of the portion of the frame member corresponding to the recessed portion (the branch portion) by the reinforcing member can be further improved by the rib.

In another embodiment of the present invention, a damper attachment portion where the damper is attached is provided at an upper wall of the recessed portion, and at least a part of the reinforcing member extends from an outward-side position, in the vehicle width direction, of a longitudinally-extending line which passes through a center of figure of the damper attachment portion to an inward-side position, in the vehicle width direction, of the longitudinally-extending line passing through the center of figure of the damper attachment portion and joined to the frame member at the inward-side position, in the vehicle width direction, of the longitudinally-extending line passing through the center of figure of the damper attachment portion.

According to this embodiment, since the reinforcing member is joined to the frame member and the rear wheel house such that the reinforcing member extends in the vehicle width direction over the above-described outward-side closed cross section at least, it can be properly suppressed by the reinforcing member that the branch portion (the portion where the recessed portion is formed) has the open move such that the distance, in the vehicle width direction, between the inward-side and outward-side closed cross sections improperly increases according to the vertical move of the damper.

In another embodiment of the present invention, the reinforcing member is fixed to an inward-side end, in the vehicle width direction, of the frame member.

According to this embodiment, since the reinforcing member is configured to interpose the branch-shaped inward-side and outward-side closed cross sections from both sides in the vehicle width direction at the portion of the frame member corresponding to the recessed portion (the branch portion), the open move of the inward-side and outward-side closed cross sections can be effectively suppressed.

Other features, aspects, and advantages of the present invention will become apparent from the following description which refers to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of a rear vehicle-body structure of a present embodiment.

FIG. 2 is a bottom view of the rear vehicle-body structure of the present embodiment.

FIG. 3 is a perspective view of a major part of the rear vehicle-body structure of the present embodiment, when viewed from an outward side in a vehicle width direction and a bottom-face side.

FIG. 4 is an enlarged view of the major part of the rear vehicle-body structure of the present embodiment, when viewed from an arrow A of FIG. 1.

FIG. 5 is an enlarged sectional view taken along line A-A of FIG. 2.

FIG. 6 is an enlarged sectional view taken along line B-B of FIG. 2.

FIG. 7 is an explanatory view of an inside structure of a portion of a front side frame which corresponds to a recessed portion in a state where an upper face is removed, when viewed from an upward side and an inward side in the vehicle width direction.

FIG. 8 is an exploded perspective view of the portion of the front side frame corresponding to the recessed portion shown in FIG. 7.

FIG. 9 is a perspective view of a major part of the rear vehicle-body structure shown in FIG. 1, which shows a state where a reinforcing member is separated from an upper face of the front side frame.

FIG. 10 is a sectional view taken along line C-C of FIG. 5.

FIG. 11A is a plan view of the reinforcing member of the present embodiment, FIG. 11B is a bottom view of the reinforcing member of the present embodiment.

FIGS. 12A and 12B are views of a rear vehicle-body structure of another embodiment, which correspond to FIG. 4 and FIG. 1, respectively.

FIG. 13 is a bottom view of a conventional rear vehicle-body structure.

FIG. 14 is an enlarged sectional view taken along line D-D of FIG. 13.

DETAILED DESCRIPTION OF THE INVENTION

Hereafter, embodiments of the present invention will be specifically described referring to the drawings.

In the figures, an arrow F shows a vehicle front side, an arrow R shows a vehicle right side, an arrow L shows a vehicle left side, an arrow U shows a vehicle upper side, an arrow out shows an outward side in a vehicle width direction, and an arrow in shows an inward side in the vehicle width direction.

FIGS. 1 and 2 show a rear vehicle-body structure V of the present embodiment of the present invention, and a basic structure of the rear vehicle-body structure V of the present embodiment will be described referring to FIGS. 1 and 2 primarily first.

In a vehicle body of an automotive vehicle shown in FIG. 2, a floor panel 1 which constitutes a floor face of a cabin is provided, and side sills 2 as vehicle-body reinforcing members are fixedly joined to both sides of the floor panel 1. Herein, each of the side sills 2 comprises a side sill inner 2 a and a side sill outer (not illustrated) and has a closed cross section 2 s extending in a vehicle longitudinal direction.

As shown in FIGS. 1 and 2, a rear floor panel 4 is integrally connected to a rear portion of the floor panel 1 which constitutes a vehicle-body rear floor via a kick-up portion 3 which is configured to rise upwardly, and rear side frames 6 (hereafter, referred to as the “frame members 6”) which extend in the vehicle longitudinal direction are provided at both sides of the rear floor panel 4.

As shown in FIG. 2, a fuel tank 5 is arranged below a front portion 4F ((hereafter, referred to as the “rear floor front portion 4F”) of the rear floor panel 4. The fuel tank 5 is protected by an insulator, not illustrated.

As shown in the same figure, the fuel tank 5 is equipped with a fuel pipe 5 a (filler pipe 5 a) for supplying fuel into the fuel tank 5 from a fuel supply port (not illustrated) positioned inside a filler rid (not illustrated) provided at an a left-side face of a rear portion of the vehicle body and a breather pipe 5 b as a passage of evaporated fuel. The fuel pipe 5 a and the breather pipe 5 b are arranged at the vehicle left side such that they extend from below the rear floor panel 4 of the vehicle across the left-side frame member 6.

As shown in FIG. 1, at a rear portion 4R of the rear floor panel 4 (hereafter, referred to as the “rear-floor rear portion 4R”) is integrally formed a concave portion 4 a which serves as a spare tire pan which is configured such that a middle part, in the vehicle width direction, of the rear-floor rear portion 4R is concaved downwardly or any other components.

The above-described frame member 6 is constituted as a vehicle-body side-portion rigidity member which is configured to have a closed cross section 6 s extending in the vehicle longitudinal direction from the kick-up portion 3 to a rear end of the rear floor panel 4. A front end of the frame member 6 is connected to a rear portion of the side sill 2.

As shown in FIGS. 1 and 2, the frame member 6 comprises a frame member upper 61 (see FIG. 1) which has an upwardly-protruding hat-shaped cross section over a whole part of the vehicle longitudinal direction, a frame member lower 62 (see FIG. 2) which has a downwardly-protruding hat-shaped cross section, and others. The frame member upper 61 and the frame member lower 62 include flange portions 61 a, 62 a at respective inward ends, in the vehicle width direction, of these members 61, 62 (see FIGS. 5 and 6), and an outward end portion 4 b, in the vehicle width direction, of the rear floor panel 4 which is interposed between these members 61, 62 is welded together with the members 61, 62 such that a three-layer joining is provided (see the same figures).

As shown in FIGS. 1 and 2, a rear wheel house 7 is provided on the outward side, in the vehicle width direction, of the frame member 6. The rear wheel house 7 is formed by joining a rear wheel house outer, not illustrated, and a rear wheel house inner 7 a (hereafter, referred to as the “wheel house inner 7 a”).

As shown in FIG. 1, front-and-rear side braces 8, 9 to reinforce the wheel house inner 7 a are joined to the wheel house inner 7 a from respective inward sides, in the vehicle width direction, of the side braces 8, 9. Closed cross sections 8 s, 9 s are respectively formed between the front-and-rear side braces 8, 9 and the wheel house inner 7 a.

As shown in the same figure, the front-and-rear side braces 8, 9 are arranged in front and back of a top portion 71 a of an arch portion 71 of the wheel house inner 7 a which is formed in an arch shape in a side view, and these braces 8, 9 respectively extend upwardly from a middle position, in a vertical direction, of a vertical wall portion 72 of the wheel house inner 7 a.

Further, as shown in FIGS. 1 and 2, a rear cross member upper 11 (see FIG. 11) and a rear cross member lower 12 (see FIG. 2) are fixedly joined to upper-and-lower both portions of the rear floor panel 4 at a border portion of the rear floor front portion 4F and the rear-floor rear portion 4R. These 11, 12 are rear cross members (a so-called No. 4 cross member) which extend in the vehicle width direction and interconnect the both-side frame members 6, respectively. Closed cross sections 11 s, 12 s which overlap in the vertical direction are formed between the rear cross member upper 11 and the rear floor panel 4 and also between the rear cross member lower 12 and the rear floor panel 4.

Moreover, as shown in FIG. 2, a rear-side rear cross member 13 (a so-called No. 5 cross member) which extends in the vehicle width direction across the concave portion 4 a of the rear-floor rear portion 4R and interconnects the both-side frame members 6 is fixedly joined to the rear-floor rear portion 4R from a lower-face side of the rear-floor rear portion 4R. A closed cross section 13 s which extends in the vehicle width direction is formed between the rear-side rear cross member 13 and the rear floor panel 4.

Subsequently, details of the rear vehicle-body structure V of the present embodiment will be described. Herein, since the rear vehicle-body structure V is laterally symmetrical, the rear vehicle-body structure V will be described based on a left-side structure of the vehicle body referring to FIGS. 3-7, in addition to FIGS. 1 and 2.

As shown in FIG. 2, the frame member 6 of the present embodiment is provided with suspension-component attachment portions 14 (15), 16 at a middle position, in the vehicle longitudinal direction, of the frame member 6 (a position corresponding to a rear suspension, not illustrated).

As shown in FIGS. 2 and 3, the suspension-component attachment portions 14 (15), 16 comprise a front-side suspension-component attachment portion 14, a damper support portion (15), and a rear-side suspension-component attachment portion 16 which are provided along the vehicle longitudinal direction at the middle position, in the vehicle longitudinal direction, of the frame member 6.

The front-side suspension-component attachment portion 14 is configured to protrude downwardly in a pedestal shape, having a bolt insertion hole 14 a, at a position located in front of the middle position, in the vehicle longitudinal direction, of the frame member 6. Herein, a rear-suspension component, such as a suspension cross member, not illustrated, or a trailing arm, is attachable to the attachment portion 14 by means of a bolt for suspension attaching (not illustrated) to be inserted in the bolt insertion hole 14 a.

The rear-side suspension-component attachment portion 16 is configured to protrude downwardly in a pedestal shape, having a bolt insertion hole 16 a, at a position located in back of the front-side suspension-component attachment portion 14. Herein, a rear-suspension component, such as a suspension cross member, is attachable to the attachment portion 16 by means of a bolt for suspension attaching (not illustrated) to be inserted in the bolt insertion hole 16 a.

The above-described rear cross members 11, 12 are joined to the both-side frame members 6 from the inward side in the vehicle width direction at a position corresponding to the front-side suspension-component portion 14 in the vehicle longitudinal direction (see FIGS. 2 and 3). The above-described rear-side rear cross member 13 is joined to the both-side frame members 6 from the inward side in the vehicle width direction at a position corresponding to the rear-side suspension-component portion 16 in the vehicle longitudinal direction (see the same figures).

Meanwhile, as shown in FIGS. 3 and 5, a recessed portion 15 which is configured such that a central part, in the vehicle width direction, of a lower face of the frame member 6 is recessed upwardly is formed at a position located between the front-and-rear suspension-component attachment portions 14, 15, in other words, at a middle position, in the vehicle longitudinal direction, of the wheel house inner 7 a (a position corresponding to the top portion 71 a (see FIG. 3)) of the frame member 6. Herein, FIG. 5 shows a sectional view taken along line A-A of FIG. 2, specifically a cross section of the frame member 6 at a recessed-portion corresponding position P in the vehicle longitudinal direction.

The recessed portion 15 has an opening portion 15 a which is opened in the vertical direction at the central part, in the vehicle width direction, of the lower face of the frame member 6 (see FIG. 5), and this is configured as the above-described damper support portion (15) where a damper D (see FIG. 5) of the rear suspension, not illustrated, is fixed, being inserted through the opening portion 15 a.

That is, as shown in FIG. 2, the damper support portion (15) of the present embodiment is formed by providing the recessed portion 15 at the frame member 6, and a wide portion 6A of the frame member 6 which is configured to be outwardly wider in the vehicle width direction than any other portion of the frame member 6 is formed at the position P, in the vehicle longitudinal direction, of the frame member 6 which corresponds to the recessed portion 15 (i.e., the recessed-portion corresponding position P) (see FIGS. 2 and 3).

Accordingly, as shown in FIG. 5, at the recessed-portion corresponding position P of the frame member 6 are provided a closed cross section 6 sa which is positioned on the inward side in the vehicle width direction (the inward-side closed cross section 6 sa) and another closed cross section 6 sb which is positioned on the outward side in the vehicle width direction (the outward-side closed cross section 6 sb) which branch off from the longitudinally-extending closed cross section 6 s of the frame member 6 inwardly and outwardly, respectively, in the vehicle width direction relative to the damper D which inserted into and fixed to the recessed portion 15.

Thereby, as shown in FIG. 2, a load path of a rear-collision load which is transmitted forwardly passing through the recessed-portion corresponding position P of the frame member 6 in a vehicle rear collision is constituted by two load paths L1, L2 which respectively correspond to the inward-side closed cross section 6 sa and the outward-side closed cross section 6 sb at the recessed-portion corresponding position P.

Further, in the rear vehicle-body structure V of the present embodiment, the recessed portion 15 is provided at the frame member 6 so that the frame member 6 can have a damper-support function.

Accordingly, the both-side frame members 6 are provided to be offset inwardly in the vehicle width direction as a whole (i.e., their parallelly-extending portions of the both-side frame members are provided to be offset inwardly in the vehicle width direction), compared to the conventional structure where the frame member, the damper support portion, and the wheel house inner are separately arranged from the inward side toward the outward side in the vehicle width direction.

That is, since the frame member 6 of the present embodiment is configured such that its axial center 6 x (see FIG. 2) extending along its longitudinal direction (the vehicle longitudinal direction) is offset inwardly in the vehicle width direction, compared to the conventional structure described above, its inwardly-offset amount from the side sill 2 becomes greater than that of the conventional structure.

As shown in FIGS. 2 and 3, the frame member 6 of the present embodiment is configured such that another part than its front part extends substantially in parallel to the vehicle longitudinal direction. Also, its front part has an oblique portion 6F which is configured to extend obliquely forwardly and outwardly, and a front end of the oblique portion 6F (i.e., a front end of the frame member 6) is joined to a rear portion of the side sill 2 (see the same figures).

Since the frame member 6 is configured such that the front part has the oblique portion 6F and the front end is connected to the side sill 2 as described above, the front end of the frame member 6 can be smoothly connected to the rear portion of the side sill 2 even in the structure of the present embodiment in which the frame member 6 is inwardly offset from the side sill 2 in the vehicle width direction. Accordingly, the rear-collision load can be efficiently transmitted from the frame member 6 to the side sill 2 in the vehicle rear collision.

Herein, the oblique portion 6F of the present embodiment corresponds to a section of the frame member 6 which is located from a position located between the recessed-portion corresponding position P and the front-side suspension-component attachment portion 14 (in other words, a position corresponding to a front end of the wide portion 6A) to the front end of the frame member 6.

Further, as shown in FIGS. 2 and 3, a front portion of the oblique portion 6F overlaps a rear portion of the side sill inner 2 a, that is, overlaps, in the vehicle longitudinal direction, an area from a rear end of the side sill inner 2 a to a position behind the kick-up portion 3. The front portion of the oblique portion 6F is joined to the rear portion of the side sill inner 2 a from the inward side in the vehicle width direction at this overlapping area.

Further, the frame member 6 of the present embodiment is provided with the wide portion 6A at the recessed-portion corresponding position P according to providing the recessed portion 15 as the damper support portion (15) as descried above. In particular, this wide portion 6A is configured such that a part of the frame member 6 is widened outwardly in the vehicle width direction (see the same figures).

The axial center 6 x (see FIG. 2) of the frame member 6 can be made offset outwardly in the vehicle width direction (toward the side sill 2 in the vehicle width direction) at the recessed-portion corresponding position P (the wide portion 6A), compared to a case where the wide portion 6A is not formed, so that any harmful influence which may be caused by providing the recessed portion 15 at the frame member 6 can be corrected.

Specifically, the inwardly-offset amount of the frame member 6 relative to the side sill 2 becomes large by providing the recessed portion 15 at the frame member 6, so that smooth transmission of the rear-collision load from the frame member 6 to the side sill 2 in the vehicle rear collision is so hindered that there is a concern that there may occur deformation in that the overlapping amount, in the vehicle longitudinal direction, of the front portion of the frame member 6 and the rear portion of the side sill 2 becomes large, that is, the frame member and the side sill member produce together a Z shape in a plan view. However, this harmful influence can be suppressed by the above-described structure of the present embodiment.

The above-described wide portion 6A is configured such that an outward edge side 6 o, in the vehicle width direction, of the frame member 6 is positioned gently outwardly in the vehicle width direction over an area from a place located behind the rear-side suspension-component attachment portion 16 to another place located right behind the front-side suspension-component attachment portion 14 so that the recessed-portion corresponding position P is located at the most outward position (see FIG. 2).

Meanwhile, an inward edge side 6 i, in the vehicle width direction, of the frame member 6 is positioned substantially linearly along the vehicle longitudinal direction over an area from a rear end of the frame member 6 to its joint portion to rear cross member lower 12, without being positioned inwardly in the vehicle width direction at the wide portion 6A including the recessed-portion corresponding position P (see FIG. 2).

That is, the wide portion 6A is configured such that only the outward edge portion 6 o of the frame member 6 protrudes toward the wheel house inner 7 a at the recessed-portion corresponding position P. Herein, the recessed portion 15 is of an ellipse (oval) shape having a major axis which matches the vehicle longitudinal direction in a bottom view, and a center of FIG. 65 aa (see FIG. 5) of the recessed portion 15 is positioned at a central portion, in the vehicle width direction, of the wide portion 6A (the recessed-portion corresponding position P) of the frame member 6.

Thereby, as shown in FIG. 2, in the load paths L1, L2 of the rear-collision load which pass through the recessed-portion corresponding position P of the frame member 6 in the vehicle rear collision, the load path L2 passing through the outward-side closed cross section 6 sb proceeds forwardly, going outwardly around the recessed portion 15 at the recessed-portion corresponding position P of the frame member 6, whereas the load path L1 passing through the inward-side closed cross section 6 sa proceeds linearly forwardly along the longitudinal direction of the frame member 6 (the vehicle longitudinal direction) without going inwardly around the recessed portion 15.

Further, as shown in FIGS. 2, 3 and 6, a ridgeline 17 which extends continuously in the longitudinal direction of the frame member 6 (the vehicle longitudinal direction) is formed at a portion of a lower face portion of the frame member 6 which is positioned in front of the recessed-portion corresponding position P.

As shown in FIGS. 2 and 3, the ridgeline 17 extends forwardly from a front lower end of the recessed portion 15 (a font end of the opening portion 15 a of the recessed portion 15) up to a position located beyond the rear cross member lower 12 in the vehicle longitudinal direction of the frame member 6.

More specifically, the ridgeline 17 extends forwardly from the front lower end of the recessed portion 15 beyond a position which corresponds to an axial center 12 x extending in the vehicle width direction of the rear cross member lower 12 (see FIG. 2).

Further, as shown in FIG. 2, a front portion of the ridgeline 17 (a portion positioned in front of a front-end corresponding position of the wide portion 6A) extends along an outward edge, in the vehicle width direction, of the front-side suspension-component attachment portion 14 such that its front side is positioned on the outward side in the vehicle width direction along the oblique shape of the front portion (the oblique portion 6F) of the frame member 6, and its front end joins the outward edge side 6 o of the frame member at a position right before the side will inner 2 a.

As shown in FIGS. 2, 3 and 6, a concave portion 18 which is concaved upwardly and inwardly in the vehicle width direction is formed at a corner portion of an outward-side lower portion of a portion of the frame member 6 which is positioned in front of the recessed-portion corresponding position P by providing the ridgeline 17 at the lower face of the frame member 6. This concave portion 18 can form a concave-shaped space 18 s which is positioned on the outward side in the vehicle width direction and below the ridgeline 17 of the frame member 6.

In other words, as shown in FIG. 3, by providing the ridgeline 17 at the lower face of the frame member 6, the cross section of the lower portion of the frame member 6 is configured in a step shape relative to the ridgeline 17 such that its inward-side portion protrudes downwardly relative to its outward-side portion (the concave portion 18), and a step face 18 a which extends in the vertical direction is formed along the ridgeline 17 at a position corresponding to the ridgeline 17 in the vehicle width direction.

Herein, as shown in FIGS. 3 and 6, at a downward protrusion portion 19 which is a portion of the lower face of the frame member 6 which is positioned on the inward side, in the vehicle width direction, of the ridgeline 17 is provided a pipe insertion portion 19 a where the breather pipe 5 b which is provided to extend in the vehicle width direction across the downward protrusion portion 19 is inserted.

Accordingly, while the fuel pipe 5 a and the breather pipe 5 b which extend from the fuel tank 5 are provided to extend from the inward side to the outward side in the vehicle width direction across the frame member 6, the fuel pipe 5 a extends below and across the oblique portion 6F of the frame member 6 (see FIG. 2), whereas the breather pipe 5 b extends across the downward protrusion portion 19 of the frame member 6 in a state of its being inserted into the pipe insertion portion 19 a (see FIGS. 2 and 6).

Herein, while the present embodiment is configured such that only the breather pipe 5 b is provided to extend across the downward protrusion portion 19 in the state of its being inserted into the pipe insertion portion 19 a, the present invention is not limited to this structure, but a structure in which a pipe insertion portion where the fuel pipe 5 a or any other pipe are inserted is provided at the downward protrusion portion 19 of the frame member, which is not illustrated, is applicable as well.

While the breather pipe 5 b is configured, as described above, to be inserted into the pipe insertion portion 19 a provided at the downward protrusion portion 19 of the frame member 6 from the inward side in the vehicle width direction and extend outwardly in the vehicle width direction, an extension portion of the breather pipe 5 b may be arranged in the concave-shaped space 18 s which is positioned at the outward-lower portion of the frame member 6.

That is, by arranging the extension portion of the breather pipe 5 b of the breather pipe 5 b which extends outwardly in the vehicle width direction relative to the frame member 6 (the downward protrusion portion 19) at the concave-shaped space 18 s formed by the concave portion 18, the layout performance (arranging performance) of the extension portion can be improved.

Accordingly, the layout performance (arranging performance) of the extension portion can be improved, holding the breather pipe 5 b at the frame member 6 (the downward protrusion portion 19) by being inserted into the pipe insertion portion 19 a and also preventing the above-described extension portion of the breather pipe 5 b from interfering with the wheel house inner 7 a which is provided on the outward side of and closely to the frame member 6 by the concave-shaped space 18 s.

As shown in FIG. 2, the frame member 6 is constituted by integrally connecting plural members 6 a, 6 b, 6 m in the vehicle longitudinal direction, and in particular, the frame member upper 61 is constituted by a middle member 61 m and the frame member lower 62 is constituted by a middle member 62 m.

FIG. 7 is a perspective view of the recessed-portion corresponding position P, in the vehicle longitudinal direction, of the frame member 6 in a state where the middle member 61 m of the frame member upper 61 is removed, when viewed from an outward-and-upward side. FIG. 8 is an exploded view of the recessed portion 15 of the frame member 6.

As shown in FIGS. 5-8, the frame member 6 is constituted, at the recessed-portion corresponding position P, in the vehicle longitudinal direction, thereof, by the frame-upper middle member 61 m (see FIGS. 5 and 9) which corresponds to the middle member 61 m of the frame member upper 61, the frame lower middle member 62 m which corresponds to the middle member 62 m of the frame member lower 62, a top-plate member 65 which attaches the damper D at a concave bottom of the recessed portion 15, and an outer panel 66 (see FIGS. 3 and 5) which constitutes an outward side face.

Further, as shown in FIGS. 5, 7 and 8, the frame lower middle member 62 m is constituted by a frame-lower inward-side middle member 63 and a frame-lower outward-side middle member 64.

The frame-lower inward-side middle member 63 comprises a recess inward-side face portion 63 a which protrudes inwardly in the vehicle width direction so as to constitute a side face of an inward-side half, in the vehicle width direction, of the ellipse-shaped recessed portion 15, a front-side flange portion 63 b (see FIGS. 7 and 8) which extends forwardly from a front edge of the recess inward-side face portion 63 a, a rear-side flange portion 63 c (see the same figures) which extends rearwardly from a rear edge of the recess inward-side face portion 63 a, a lower face portion 63 d which extends inwardly and longitudinally relative to a lower end portion of the recess inward-side face portion 63 a so as to constitute a lower face (bottom face) of the inward-side closed cross section 6 sa, an inward-side face portion 63 e which rises in a vertical-wall shape from an inward end, in the vehicle width direction, of the lower face portion 63 d, and a joint flange portion 62 a which extends inwardly from an upper end of the inward-side face portion 63 e, which are all formed integrally.

Herein, as shown in FIG. 5, the joint flange portion 62 a is joined to the outward-side end portion 4 b of the rear floor panel 4 from the lower-face side as described.

Further, as shown in FIG. 8, the frame-lower inward-side middle member 63 is configured such that an outward-side end of the lower face portion 63 d is joined not only to an entire part of the half eclipse-shaped lower end portion of the recess inward-side face portion 63 a but to respective lower end portions of the front-side flange portion 63 b and the rear-side flange portion 63 c (specifically, a rear-end corresponding portion 63 g which will be described (see FIG. 8)).

Moreover, as shown in FIGS. 3 and 8, a rear-end corresponding portion 63 g of the step face 18 a (see FIGS. 3 and 6) of the frame member 6 which is positioned in front of the recessed portion 15 is provided at a lower portion of a vertically-extending front edge of the recess inward-side face portion 63 a. That is, as shown in FIG. 8, the rear-end corresponding portion 63 g is provided at a lower portion of the front-side flange portion 63 d, and the front-side flange portion 63 b is integrally formed, in the vertical direction, at a front portion of the recess inward-side face portion 63 a including the rear-end corresponding portion 63 g. Meanwhile, the rear-side flange portion 63 c is also formed at a whole part, in the vertical direction, of a rear edge of the recess inward-side face portion 63 a.

As shown in FIGS. 5, 7 and 8, the frame-lower outward-side middle member 64 comprises a recess outward-side face portion 64 a which protrudes outwardly in the vehicle width direction so as to constitute a side face of an outward-side half, in the vehicle width direction, of the ellipse-shaped recessed portion 15, a front-side flange portion 64 b (see FIGS. 7 and 8) which extends forwardly from a front edge of the recess outward-side face portion 64 a, a rear-side flange portion 64 c (see the same figures) which extends rearwardly from a rear edge of the recess outward-side face portion 64 a, a lower face portion 64 d which extends outwardly and longitudinally relative to a lower end portion of the recess inward-side face portion 64 a so as to constitute a lower face (bottom face) of the outward-side closed cross section 6 sb, and a joint flange portion 64 e which rises in a vertical-wall shape from an outward end, in the vehicle width direction, of the lower face portion 64 d, which are all formed integrally.

Herein, as shown in FIGS. 7 and 8, the frame-lower outward-side middle member 64 is configured such that a vertical length of the recess outward-side face portion 64 a becomes gradually smaller from the rearward side to the forward side of the vehicle by providing the concave portion 18 at an outward side, in the vehicle width direction, of a front side of the recessed portion 15.

Similarly to the frame-lower inward-side middle member 63, an inward-side end of the lower face portion 64 d of the frame-lower outward-side middle member 64 is joined not only to an entire part of the half eclipse-shaped lower end portion of the recess outward-side face portion 64 a but to respective lower end portions of the front-side flange portion 64 b and the rear-side flange portion 64 c.

The joint flange portion 64 e of the frame-lower outward-side middle member 64 is joined to a lower end portion of the outer panel 66 as shown in FIG. 5.

As shown in FIGS. 5, 7 and 8, the top-plate member 65 comprises a flat-plate shaped damper attachment portion 65 a which is of the ellipse (oval) shape in the plan view and a joint flange portion 65 f which extends downwardly from a peripheral edge of the damper attachment portion 65 a except longitudinal both ends thereof, which are integrally formed.

A damper insertion hole 65 b where the damper D is inserted is formed at a central portion, in the plan view, of the damper attachment portion 65 a, and bolt insertion holes 65 c, 65 d are formed at positions of the damper attachment portion 65 a which are located in front of and in back of the damper insertion hole 65 b (see FIGS. 7 and 8). The damper D is attached and fixed to the damper attachment portion 65 a by inserting the damper D into the damper insertion hole 65 b from below, inserting bolts into the bolt insertion holes 65 c, 65 d in a state where a flange-shaped attachment portion Da (see FIG. 5) which is provided at the damper side contacts a lower face of the damper attachment portion 65 a, and finally fastening the bolts.

The above-described recessed portion 15 is constituted by connecting the respective front-side flange portions 63 b, 64 b of the frame-lower inward-side middle member 63 and the frame-lower outward-side middle member 64 and also connecting the respective rear-side flange portions 63 c, 64 c of the frame-lower inward-side middle member 63 and the frame-lower outward-side middle member 64 (see FIG. 7). Further, as shown in FIG. 5, the recessed portion 15 is constituted by joining the joint flange portion 65 f of the top-plate member 65 to respective upper portions 63 h, 64 h of the frame-lower inward-side middle member 63 and the frame-lower outward-side middle member 64 from the inner-face side of the recessed portion 15.

Herein, as shown in FIGS. 5 and 6, the frame-upper middle member 61 m is arranged so as to cover over the frame lower middle member 62 m and the top-plate member 65 which are joined integrally as described above, and as shown in FIG. 5, in particular, the frame-upper middle member 61 m is joined to the upper face of the damper attachment portion 65 a at a part of the frame-upper middle member 61 m which corresponds to the damper attachment portion 65 a in the plan view.

Moreover, at respective parts of the frame-upper middle member 61 m which correspond to the damper insertion hole 65 d and the front-side and rear-side bolt insertion holes 65 c, 65 d of the damper attachment portion 65 a are formed a damper insertion hole 61 ma (see FIGS. 5 and 9) which connects to the damper insertion hole 65 b and front-side and rear-side bolt insertion holes 61 mb, 61 md which connect to the front-side and rear-side bolt insertion holes 65 c, 65 d (see FIG. 9).

As shown in FIG. 5, a lower end portion 66 a of the outer panel 66 is joined to the joint flange portion 64 e of the frame-lower outward-side middle member 64 as described above. Moreover, the outer panel 66 is provided with an upper-end flange portion 66 c which rises further upwardly from a body portion 66 b which constitutes at least an outward-side face of the recessed-portion corresponding position P of the frame member 6 (see FIG. 5).

Meanwhile, as shown in FIGS. 5 and 6, the frame-upper middle member 61 m is provided with an outward-side flange portion 61 mc which rises in a vertical-wall shape from an outward end, in the vehicle width direction, of the frame-upper middle member 61 m.

As shown in the same figure, the upper-end flange portion 66 c of the outer panel 66, the outward-side flange portion 61 mc of the frame-upper middle member 61 m, the lower end portion 7 b of the wheel house inner 7 a, and an upper flange portion 37 of a reinforcing member 30, which will be described later, are joined by rivets (not illustrated) or the like in a state where the upper-end flange portion 66 c and the outward-side flange portion 61 mc are interposed between the lower end portion 7 b of the wheel house inner 7 a and the upper flange portion 37.

Accordingly, as shown in FIG. 5, the inward-side closed cross section 6 sa is constituted primarily by the frame-lower inward-side middle member 63 and the frame-upper middle member 61 m, whereas the outward-side closed cross section 6 sb is constituted primarily by the frame-lower outward-side middle member 64 and the frame-upper middle member 61 m.

As shown in FIGS. 3, 5 and 6, the outer panel 66 continuously extends forwardly from a portion of the frame member 6 which corresponds to the rear-side suspension-component attachment portion 16 in the vehicle longitudinal direction, passing through the recessed-portion corresponding position P.

As shown in FIG. 3, the outer panel 66 extends along the oblique shape of the oblique portion 6F up to the rear end of the side sill inner 2 a so as to constitute not only an outward-side face of the recessed-portion corresponding position P of the frame member 6 but an outward-side face of the portion of the frame member 6 which corresponds to the oblique portion 6F.

A front end of the outer panel 66 is joined to a rear end of the side sill inner 2 a.

Specifically, the lower end portion 7 b of the wheel house inner 7 a, the front end of the outer panel 66, and the rear end of the side sill inner 2 a are three-layer joined by rivets or the like in a state where the front end of the outer panel 66 is interposed between the lower end portion 7 b of the wheel house inner 7 a and the rear end of the side sill inner 2 a (not illustrated).

Further, as shown in FIGS. 3 and 6, a ridgeline 67 which protrudes outwardly in the vehicle width direction is formed at the outer panel 66. This ridgeline 67 continuously extends in a longitudinal direction of the outer panel 66 (in the vehicle longitudinal direction) over an area from the recessed-portion corresponding position P to it joint portion to the side sill 2, thereby increasing the strength of the outer panel 66 extending along the oblique shape of the oblique portion 6F.

In the present embodiment, as shown in FIGS. 1, 4-6, 9 and 10, the reinforcing member 30 to reinforce the recessed-portion corresponding position P of the frame member 6, in particular, is provided at an upper portion of the frame member 6.

The reinforcing member 30 comprises a connecting member portion 31 (see FIGS. 1, 4 and 9) which connects the front-side side brace 8 and the rear cross member upper 11 at a position, in the vehicle longitudinal direction, of the frame member 6 which is located in front of the recessed-portion corresponding position P and a reinforcing-member body portion 33 which is positioned in back of the connecting member portion 31, which are formed integrally by aluminum die-casting.

As shown in FIGS. 1, 4 and 9, the connecting member portion 31 extends in the vehicle width direction above and across the frame member 6, and an outward end, in the vehicle width direction, thereof is connected to a lower end of the front-side side brace 8 and an inward end, in the vehicle width direction, thereof is connected to an outward end, in the vehicle width direction, of the rear cross member upper 11 from above. Accordingly, the front-side side brace 8 and the rear cross member upper 11 extend continuously via the connecting member portion 31 (see FIGS. 1 and 4).

The connecting member portion 31 is joined to the frame member 6 and the wheel house inner 7 a such that a closed cross section 31 s (see FIG. 10) is formed at a corner portion of an inward face, in the vehicle width direction, of the vertical wall portion 72 of the wheel house inner 7 a and an upper face of the frame member 6.

As shown in FIGS. 1, 4 and 10, the reinforcing-member body portion 33 is long enough, in the vehicle longitudinal direction, to pass through the recessed corresponding position P of the frame member 6, and as shown in FIGS. 4-6, this body portion 33 is integrally formed by an upper wall portion 34, an inward wall portion 35, and a rear wall portion 36 (see FIG. 4) and others.

As shown in FIG. 4, the upper wall portion 34 is configured in a step shape so as to be located at an one-step higher level than the upper face of the frame member 6, and has a width (the length in the vehicle width direction) which corresponds to the wide portion 6A of the frame member 6 as shown in FIGS. 4-6. Further, as shown in FIGS. 4, 5 and 9, a damper insertion hole 34 a is formed at a portion of the upper wall portion 34 which corresponds to the damper insertion hole 61 ma of the frame member 6 in the plan view such that this damper insertion hole 34 a and the damper insertion hole 61 ma are aligned in the vertical direction.

Moreover, a front-side damper-attachment concave portion 34 b and a rear-side damper-attachment concave portion 34 c are formed at respective portions of the upper wall portion 34 which are located in front of and in back of the damper insertion hole 34 a as shown in FIGS. 4, 10 and 11A. These concave portions 34 b, 34 c are configured to be concaved downwardly from an upper face of the upper wall portion 34. At respective central portions of the concave bottoms of the front-side and rear-side damper-attachment concave portions 34 b, 34 c are formed bolt insertion holes 34 d, 34 e for damper fastening as shown in FIGS. 4, 9, and 11A and 11B such that these bolt insertion holes 34 d, 34 e and the front-side and rear-side bolt insertion holes 61 mc, 61 mb are aligned in the vertical direction.

As shown in FIGS. 4, 6 and 10, an upper flange portion 37 which extends upwardly is integrally formed at an outward end, in the vehicle width direction, of the upper wall portion 34.

Herein, as shown in FIGS. 1, 4 and 10, an upper extension portion 38 which extends upwardly further beyond the upper flange portion 37 is formed at an outward-side end portion, in the vehicle width direction, of the reinforcing-member body portion 33 where the rear-side damper-attachment concave portion 34 c is formed. An upper end of the upper extension portion 38 is joined to a lower end portion of the rear-side side brace 9 (see FIGS. 1 and 4). Further, the upper extension portion 38 is joined to the wheel house inner 7 a as well, and a closed cross section 38 s which extends in the vertical direction is formed between the upper extension portion 38 and the wheel house inner 7 a.

As shown in FIGS. 4-6, 11A and 11 bB, the inward wall portion 35 extends downwardly and inwardly from an inward end, in the vehicle width direction, of the upper wall portion 34, and a side flange portion 35 a which extends downwardly and inwardly is integrally formed at a lower portion of the inward wall portion 35.

As shown in FIGS. 4, 10, 11A and 11 bB, the rear wall portion 36 extends downwardly from a rear end of the upper wall portion 34, and a rear flange portion 36 a which extends downwardly is formed at a lower portion of the rear wall portion 36.

The upper flange portion 37 of the reinforcing-member body portion 33 is joined to the vertical wall portion 72 (see FIGS. 4-6, and 10) of the wheel house inner 7 a via the upper-end flange portion 66 c and the outward flange portion 61 ms by rivets (not illustrated) or the like as described above (see FIG. 5). Further, the side flange portion 35 a of the reinforcing-member body portion 33 is joined to the inward-side face portion 61 md (see FIGS. 4-6) of the frame-upper middle member 61 m by rivets and also the rear flange portion 36 a of the reinforcing-member body portion 33 is joined to an upper face portion 61 me (see FIGS. 4 and 10) of the frame member 6 by rivets, so that the reinforcing-member body portion 33 is attached to the frame member 6 such that the upper wall portion 34 rises upwardly. Herein, in FIG. 4, marks • show rivet points and marks x show spot-welding points.

Accordingly, as shown in FIGS. 5 and 6, a closed cross section 33 s which extends in the vehicle longitudinal direction is formed by the reinforcing-member body portion 33 (the upper wall portion 34 and the inward wall portion 35, in particular), the upper face portion 61 me of the frame member 6, and the outward-side flange portion 61 mc of the frame member 6. As shown in the same figures, the closed cross section 33 s is formed not only at the corner portion of the upper face portion 61 me of the frame member 6 and the vertical wall portion 72 of the wheel house inner 7 a but over a whole part, in the vehicle width direction, of the frame member 6.

As shown in FIGS. 4, 5, 10, 11A and 11B, the reinforcing member 30 is provided with ribs 50-55 which respectively have a face which extends in the vehicle width direction and the vertical direction.

The plural ribs 50-55 are arranged, in the vehicle longitudinal direction, at intervals at upper-and-lower both sides of the upper wall portion 34 of the reinforcing-member body portion 33 (see FIGS. 4, 10, 11A and 11B).

Specifically, as shown in FIGS. 10 and 11B, the lower ribs 50, 51 (51 a, 51 b, 51 c), 52, 53 (53 a, 53 b, 53 c) which are formed downwardly from the lower face of the upper wall portion 34 of the reinforcing-member body portion 33 comprise, in order from a vehicle front side to a vehicle rear side, the front-end lower rib 50, the front-side lower first rib 51 a, the front-side lower second rib 51 b (see FIG. 11B), the front-side lower third rib 51 c, the middle lower rib 52 (see FIGS. 5 and 11B), the rear-side lower first rib 53 a, the rear-side lower second rib 53 b (see FIG. 11B), and the rear-side lower third rib 53 c. These lower ribs 50-53 are all arranged at the closed cross section 33 s, and inward ends, in the vehicle width direction, thereof are joined to the inward wall portion 35 of the reinforcing-member body portion 33.

As shown in FIGS. 10 and 11B, the front-end lower rib 50 is arranged such that it partitions the closed cross section 33 s (see FIG. 10) of the reinforcing-member body portion 33 from the closed cross section 31 s (see the same figure) of the connecting member portion 31 at a front end of the reinforcing-member body portion 33 (at a joint portion of the reinforcing-member body portion 33 and the connecting member portion 31).

As shown in the same figure, the front-side lower first rib 51 a, the front-side lower second rib 51 b (see FIG. 11B), and the front-side lower third rib 51 c are arranged at respective positions of a front edge of the concave-shaped front-side damper attachment concave portion 34 b of the upper wall portion 34, a center of the bolt insertion hole 34 d, and a rear edge of the concave-shaped front-side damper attachment concave portion 34 b of the upper wall portion 34.

As shown in FIGS. 5 and 11B, the middle lower rib 52 is arranged such that it connects, in the vehicle width direction, the inward wall portion 35 and an inward end, in the vehicle width direction, of the damper insertion hole 34 a at a position which corresponds to the center of the damper insertion hole 34 a, in the vehicle longitudinal direction, of the upper wall portion 34.

As shown in FIGS. 10 and 11B, the rear-side lower first rib 53 a, the rear-side lower second rib 53 b (see FIG. 11B), and the rear-side lower third rib 53 c are arranged at respective positions of a front edge of the concave-shaped rear-side damper attachment concave portion 34 c of the upper wall portion 34, a center of the bolt insertion hole 34 e, and a rear edge of the concave-shaped rear-side damper attachment concave portion 34 c of the upper wall portion 34.

Meanwhile, as shown in FIGS. 4, 10 and 11A, the upper ribs 54 (54 a, 54 b), 55 (55 a, 55 b) which are formed upwardly from the upper face of the upper wall portion 34 of the reinforcing-member body portion 33 comprise, in order from the vehicle front side to the vehicle rear side, the front-side upper first rib 54 a, the front-side upper second rib 54 b, the rear-side upper first rib 55 a, and the rear-side upper second rib 55 b. These upper ribs 54, 55 are all joined to the upper flange portion 37 at respective outward ends, in the vehicle width direction, thereof.

The front-side upper first rib 54 a and the front-side upper second rib 54 b are arranged at respective positions which correspond, in the vehicle longitudinal direction, to the front edge and the rear edge of the concave-shaped front-side damper attachment concave portion 34 b of the upper wall portion 34 (see the same figures).

The rear-side upper first rib 55 a and the rear-side upper second rib 55 b are arranged at respective positions which correspond, in the vehicle longitudinal direction, to the front edge and the rear edge of the concave-shaped rear-side damper attachment concave portion 34 b of the upper wall portion 34 (see the same figures).

That is, as shown in FIG. 10, the front-side upper first rib 54 a and the front-side lower first rib 51 a, the front-side upper second rib 54 b and the front-side lower third rib 51 c, the rear-side upper first rib 55 a and the rear-side lower first rib 53 a, and the rear-side upper second rib 55 b and the rear-side lower third rib 53 c are respectively configured to continuously extend in the vertical direction on the both sides of the upper wall portion 34.

As described above, the rear vehicle-body structure V of the present embodiment comprises the frame member 6 provided at the rear portion of the vehicle body and having the closed cross section 6 s extending in the vehicle longitudinal direction (see FIGS. 1 and 2), the wheel house inner 7 a (the rear wheel house 7) provided on the outward side, in the vehicle width direction, of the frame member 6, the recessed portion 15 formed at the frame member 6 (see FIGS. 2 and 3), wherein the recessed portion 15 is configured such that the central part, in the vehicle width direction, of the lower face of the frame member 6 is recessed upwardly, and the damper D of the rear suspension (see FIG. 5) is inserted into and fixed to the recessed portion 15, the inward-side and outward-side closed cross sections 6 sa, 6 sb formed inside the frame member 6 at the longitudinal position corresponding to the recessed portion 15, wherein the inward-side and outward-side closed cross sections 6 sa, 6 sb are configured to branch off from the closed cross section 6 s of the frame member 6 inwardly and outwardly, in the vehicle width direction, relative to the damper D (see FIG. 5), and the reinforcing member 30 fixed to the frame member 6 and the wheel house inner 7 a at the recessed-portion corresponding position P of the frame member 6 such that the closed cross section 33 s (space) is formed at the corner portion of the frame member 6 and the wheel house inner 7 a (see FIGS. 1, 4, 5 and 10).

According to this structure, while the recessed-portion corresponding position P of the frame member 6 in the vehicle longitudinal direction (the branch portion of the closed cross section 6 s of the frame member 6) is configured to have the branch-shaped inward-side and outward-side closed cross sections 6 sa, 6 sb, it can be properly suppressed by the reinforcing member 30 that the recessed-portion corresponding position P (the branch portion) has the open move such that the distance, in the vehicle width direction, between the branch-shaped inward-side and outward-side closed cross sections 6 sa, 6 sb improperly increases according to the vertical move of the damper D.

In the embodiment of the present invention, the reinforcing member 30 is provided with the ribs 50, 51 (51 a, 51 b, 51 c), 52, 53 (53 a, 53 b, 53 c), 54 (54 a, 54 b), 55 (55 a, 55 b) having the faces which extend in the vehicle width direction and the vertical direction (see FIGS. 4, 5, 10, 11A and 11B).

According to this structure embodiment, the above-described suppressing effect of the open move of the recessed-portion corresponding position P (the branch portion) by the reinforcing member 30 can be improved by the ribs 50-55.

In the embodiment of the present invention, the damper attachment portion 65 a where the damper D is attached is provided at the upper wall of the recessed portion 15, and at least a part of the reinforcing member 30 extends from the outward-side position, in the vehicle width direction, of the longitudinally-extending line which passes through the center of FIG. 65 aa (see FIG. 5) of the damper attachment portion 65 a to the inward-side position, in the vehicle width direction, of the longitudinally-extending line passing through the center of FIG. 65 aa of the damper attachment portion 65 a and joined to the frame member 6 at the inward-side position, in the vehicle width direction, of the longitudinally-extending line passing through the center of FIG. 65 aa of the damper attachment portion 65 a (see FIGS. 1, 4 and 5).

According to this structure, since the reinforcing member 30 is joined to the frame member 6 and the wheel house inner 7 a such that the reinforcing member 30 extends in the vehicle width direction over the above-described outward-side closed cross section 6 sb (i.e., the recess outward-side face portion 64 a of the closed cross section 6 sb) at least (see FIG. 5), it can be properly suppressed by the reinforcing member 30 that the recessed-portion corresponding position P has the open move such that the distance, in the vehicle width direction, between the inward-side and outward-side closed cross sections 6 sa, 6 sb improperly increases according to the vertical move of the damper D.

In the embodiment of the present invention, the reinforcing member 30 is fixed to the inward-side end, in the vehicle width direction, of the frame member 6 (see FIGS. 1, 4

-   -   6).

According to this structure, since the reinforcing member 30 is configured to interpose the branch-shaped inward-side and outward-side closed cross sections 6 sa, 6 sb from the both sides in the vehicle width direction at the recessed-portion corresponding position P (the branch portion) as shown in FIG. 5, the open move of the inward-side and outward-side closed cross sections 6 sa, 6 sb can be effectively suppressed.

The present invention is not limited to the above-described embodiment only, but applicable in various manners. For example, the reinforcing member 30 is not limited to the above-described structure as long as it is joined to the wheel house inner 7 a and the frame member 6 such that the closed cross section 33 s is formed at the corner portion of the frame member 6 and the wheel house inner 7 a at the recessed-portion corresponding position P, in the vehicle longitudinal direction, of the frame member 6. The reinforcing member 30 may be configured as shown in FIGS. 12A and 12B, for example.

FIGS. 12A and 12B are enlarged views of views of a major part of a rear vehicle-body structure VA of another embodiment comprising a reinforcing member 30A which is different from the above-described reinforcing member 30, which correspond to FIG. 4 and FIG. 1, respectively. Hereafter, the rear vehicle-body structure VA of the other embodiment will be described about the reinforcing member 30A primarily. The same structures as the above-described reinforcing member 30 are denoted by the same reference characters, descriptions of which are omitted here.

As shown in FIGS. 12A and 12B, since the rear vehicle-body structure VA is not provided with the rear-side side brace 9 (see FIG. 1) to reinforce the rear portion of the wheel house inner 7 a, the upper extension portion 38 which connects to the rear-side side brace 9 is not provided, either.

Further, while the reinforcing member 30 is configured such that the closed cross section 33 s is formed over a whole part, in the vehicle longitudinal direction, of the reinforcing-member body portion 33, the reinforcing member 30A is configured such that the closed cross section 33 s is formed only at the outward side, in the vehicle longitudinal direction, of the frame member 6, i.e., only at the side of the corner portion of the frame member 6 and the wheel house inner 7 a.

Specifically as shown in FIG. 12A, a reinforcing-member body portion 33A of the reinforcing member 30A will be described by separating it into three parts: a middle body part 33Ab which is a portion corresponding to the damper attachment portion 65 a of the top-plate member 65 (see FIG. 10), a front-side body part 33Aa which is another portion located on a front side of the above-described portion corresponding to the damper attachment portion 65 a, and a rear-side body part 33Ac which is further another portion located on a rear side of the above-described portion corresponding to the damper attachment portion 65 a.

As shown in FIGS. 12A and 12B, while the reinforcing-member body portion 33A is not configured over a whole part, in the vehicle width direction, of the frame member 6 at the front-side body part 33Aa and the rear-side body part 33Ac, this body portion 33A extends from the outward end of the frame member 6 to a position located on the inward side, in the vehicle width direction, of the center of the damper insertion hole 34 a (the front-and-rear bolt insertion holes 34 d, 34 e), so that the closed cross section 33 s is formed so as to reach a position except an inward side, in the vehicle width direction, of the upper face of the frame member 6.

Meanwhile, as shown in FIGS. 12A and 12B, the closed cross section 33 s is formed only on the outward side in the vehicle width direction at the middle body part 33Ab such that the closed cross section 33 s goes outwardly around the damper insertion hole 34 a and the front-side and rear-side bolt insertion holes 34 d, 34 e and the width of the closed cross section 33 s at the middle body part 33Ab is smaller than those of the closed cross section 33 s at the front-side body part 33Aa and at the rear-side body part 33Ac.

The reinforcing-member body portion 33A (the closed cross section 33 s) is continuous in the vehicle longitudinal direction over a range of the front-side body part 33Aa, the middle body part 33Ab, and the rear-side body part 33Ac.

Thus, the rear vehicle-body structure VA of the other embodiment is provided with the reinforcing member 30A in which the closed cross section 33 s which extends in the vehicle longitudinal direction, passing through the recessed-portion corresponding position P, differently from the closed cross section 6 s, is formed at least one side, in the vehicle width direction, of the frame member 6 relative to the damper D (at the outward side in the present embodiment).

Moreover, as shown in FIGS. 12A and 12B, a flange portion 39 which extends inwardly in the vehicle width direction from a lower end portion of the inward wall portion 35 at the middle body part 33Ab is formed in a pedestal shape at this lower end portion.

The flange portion 39 which is provided at the inward end, in the vehicle width direction, of the middle body part 33Ab of the reinforcing-member body portion 33A is joined to the upper face of the frame member 6, and joined to the upper face of the frame member 6 (the frame-upper middle member 61 m) over a whole part of the top-plate member 65 which corresponds to the damper attachment portion 65 a in the plan view. Accordingly, the flange portion 39 is formed as a damper-support reinforcement portion to reinforce the damper attachment portion 65 a.

Herein, at the flange portion 39 as the damper-support reinforcement portion are formed the damper insertion hole 34 a and the front-and-rear bolt insertion holes 34 d, 34 e which respectively correspond to the damper insertion hole 65 b and the front-and-rear bolt insertion holes 34 d, 34 e which are formed at the damper attachment portion 65 a.

Further, plural ribs 56 are formed at upper-and-lower both sides of the upper wall portion 34 of the reinforcing-member body portion 33A as well (see FIGS. 12A and 12B).

Moreover, as further another embodiment, as shown by an imaginary line in FIG. 5, an inward-side reinforcing panel 63 i to reinforce the frame-lower inward-side middle member 63 may be provided in the inward-side closed cross section 6 sa. Likewise, an outward-side reinforcing panel 64 i to reinforce the frame-lower outward-side middle member 64 may be provided in the outward-side closed cross section 6 sb.

Herein, according to the embodiments descried above, the recessed portion 15 is formed by different members of the floor-lower middle member 62 m (63, 64) which corresponds to the side face portion thereof and the top-plate member 65 which correspond to the damper support portion 15 (see FIGS. 5, 7 and 8), so that these members 62 m, 65 can be configured to have different plate-thicknesses which respectively correspond to the required damper-support strength. Specifically, in the embodiments described above, since the damper support portion 15 can be configured to have the thinner plate thickness than the side face portion by providing the reinforcing members 30, 30A at the upper portion of the frame member 6, the weight of the recessed portion 15 can be properly light as a whole even if the inward-side reinforcing panel 63 i and the outward-side reinforcing panel 64 i are provided as described above. 

What is claimed is:
 1. A rear vehicle-body structure, comprising: a frame member provided at a rear portion of a vehicle body and having a closed cross section extending in a vehicle longitudinal direction; a rear wheel house provided on an outward side, in a vehicle width direction, of the frame member; a recessed portion formed at the frame member, wherein the recessed portion is configured such that a central part, in the vehicle width direction, of a lower face of the frame member is recessed upwardly, and a damper of a rear suspension is inserted into and fixed to the recessed portion; inward-side and outward-side closed cross sections formed inside the frame member at a longitudinal position corresponding to the recessed portion, wherein the inward-side and outward-side closed cross sections are configured to branch off from the closed cross section of the frame member inwardly and outwardly in the vehicle width direction relative to the damper; and a reinforcing member fixed to the frame member and the rear wheel house at a position corresponding to the recessed portion of the frame member such that a space is formed at a corner portion of the frame member and the rear wheel house.
 2. The rear vehicle-body structure of claim 1, wherein said reinforcing member is provided with a rib having a face which extends in the vehicle width direction and a vertical direction.
 3. The rear vehicle-body structure of claim 1, wherein a damper attachment portion where said damper is attached is provided at an upper wall of said recessed portion, and at least a part of said reinforcing member extends from an outward-side position, in the vehicle width direction, of a longitudinally-extending line which passes through a center of figure of the damper attachment portion to an inward-side position, in the vehicle width direction, of the longitudinally-extending line passing through the center of figure of the damper attachment portion and joined to said frame member at the inward-side position, in the vehicle width direction, of the longitudinally-extending line passing through the center of figure of the damper attachment portion.
 4. The rear vehicle-body structure of claim 2, wherein a damper attachment portion where said damper is attached is provided at an upper wall of said recessed portion, and at least a part of said reinforcing member extends from an outward-side position, in the vehicle width direction, of a longitudinally-extending line which passes through a center of figure of the damper attachment portion to an inward-side position, in the vehicle width direction, of the longitudinally-extending line passing through the center of figure of the damper attachment portion and joined to said frame member at the inward-side position, in the vehicle width direction, of the longitudinally-extending line passing through the center of figure of the damper attachment portion.
 5. The rear vehicle-body structure of claim 3, wherein said reinforcing member is fixed to an inward-side end, in the vehicle width direction, of said frame member.
 6. The rear vehicle-body structure of claim 4, wherein said reinforcing member is fixed to an inward-side end, in the vehicle width direction, of said frame member. 